Published in Circ Res on August 15, 2008
A Tbx1-Six1/Eya1-Fgf8 genetic pathway controls mammalian cardiovascular and craniofacial morphogenesis. J Clin Invest (2011) 1.39
Retinoic acid regulates differentiation of the secondary heart field and TGFbeta-mediated outflow tract septation. Dev Cell (2010) 1.05
Pax3 is essential for normal cardiac neural crest morphogenesis but is not required during migration nor outflow tract septation. Dev Biol (2011) 0.99
Disheveled mediated planar cell polarity signaling is required in the second heart field lineage for outflow tract morphogenesis. Dev Biol (2012) 0.96
Loss of Wnt5a disrupts second heart field cell deployment and may contribute to OFT malformations in DiGeorge syndrome. Hum Mol Genet (2014) 0.83
Role of TBX1 in human del22q11.2 syndrome. Lancet (2003) 4.45
Conotruncal myocardium arises from a secondary heart field. Development (2001) 3.64
Tbx1 has a dual role in the morphogenesis of the cardiac outflow tract. Development (2004) 2.62
Targeted disruption of semaphorin 3C leads to persistent truncus arteriosus and aortic arch interruption. Development (2001) 2.15
Secondary heart field contributes myocardium and smooth muscle to the arterial pole of the developing heart. Dev Biol (2005) 2.15
PlexinA2 and semaphorin signaling during cardiac neural crest development. Development (2001) 2.02
Ablation of the secondary heart field leads to tetralogy of Fallot and pulmonary atresia. Dev Biol (2005) 1.60
In vivo response to high-resolution variation of Tbx1 mRNA dosage. Hum Mol Genet (2007) 1.59
Cardiac arterial pole alignment is sensitive to FGF8 signaling in the pharynx. Dev Biol (2006) 1.42
Rotation of the myocardial wall of the outflow tract is implicated in the normal positioning of the great arteries. Circ Res (2006) 1.40
The del22q11.2 candidate gene Tbx1 controls regional outflow tract identity and coronary artery patterning. Circ Res (2008) 1.23
Myocardium at the base of the aorta and pulmonary trunk is prefigured in the outflow tract of the heart and in subdomains of the second heart field. Dev Biol (2007) 1.04
Surgical pathology of the truncal valve: a study of 12 cases. Am J Cardiovasc Pathol (1988) 0.89
Congenital heart disease in the adult: clinical approach. J Thorac Imaging (1994) 0.80
Secondary heart field contributes myocardium and smooth muscle to the arterial pole of the developing heart. Dev Biol (2005) 2.15
Model systems for the study of heart development and disease. Cardiac neural crest and conotruncal malformations. Semin Cell Dev Biol (2006) 2.03
Myocardial lineage development. Circ Res (2010) 1.98
Neural crest and cardiovascular development: a 20-year perspective. Birth Defects Res C Embryo Today (2003) 1.79
Optical coherence tomography: a new high-resolution imaging technology to study cardiac development in chick embryos. Circulation (2002) 1.77
Heart field: from mesoderm to heart tube. Annu Rev Cell Dev Biol (2007) 1.68
The role of secondary heart field in cardiac development. Dev Biol (2009) 1.60
Ablation of the secondary heart field leads to tetralogy of Fallot and pulmonary atresia. Dev Biol (2005) 1.60
ENU induced mutations causing congenital cardiovascular anomalies. Development (2004) 1.58
Heart fields: one, two or more? Dev Biol (2004) 1.48
Beta-arrestin 2 regulates zebrafish development through the hedgehog signaling pathway. Science (2004) 1.47
Cardiac arterial pole alignment is sensitive to FGF8 signaling in the pharynx. Dev Biol (2006) 1.42
Cardiac neural crest is necessary for normal addition of the myocardium to the arterial pole from the secondary heart field. Dev Biol (2005) 1.41
Double aortic arch with aortic atresia and left-sided type B interruption. Congenit Heart Dis (2010) 1.39
Zebrafish cardiac development requires a conserved secondary heart field. Development (2011) 1.38
Shortened outflow tract leads to altered cardiac looping after neural crest ablation. Circulation (2002) 1.37
A caudal proliferating growth center contributes to both poles of the forming heart tube. Circ Res (2008) 1.31
Epicardium and myocardium separate from a common precursor pool by crosstalk between bone morphogenetic protein- and fibroblast growth factor-signaling pathways. Circ Res (2009) 1.21
Solving an enigma: arterial pole development in the zebrafish heart. Dev Biol (2006) 1.17
Patterning of the heart field in the chick. Dev Biol (2008) 1.15
Sonic hedgehog maintains proliferation in secondary heart field progenitors and is required for normal arterial pole formation. Dev Biol (2009) 1.13
Cardiac neural crest in zebrafish embryos contributes to myocardial cell lineage and early heart function. Dev Dyn (2003) 1.09
PCB126 exposure disrupts zebrafish ventricular and branchial but not early neural crest development. Toxicol Sci (2008) 1.07
Wherefore heart thou? Embryonic origins of cardiogenic mesoderm. Dev Dyn (2002) 1.06
Patterning of coronary arteries in wildtype and connexin43 knockout mice. Dev Dyn (2006) 1.03
Arterial pole progenitors interpret opposing FGF/BMP signals to proliferate or differentiate. Development (2010) 1.02
Connexin43 deficiency causes dysregulation of coronary vasculogenesis. Dev Biol (2005) 1.01
FGF8 signaling is chemotactic for cardiac neural crest cells. Dev Biol (2011) 0.98
BMP signaling modulates hedgehog-induced secondary heart field proliferation. Dev Biol (2010) 0.92
Myocardial volume and organization are changed by failure of addition of secondary heart field myocardium to the cardiac outflow tract. Dev Dyn (2003) 0.91
Signals controlling neural crest contributions to the heart. Wiley Interdiscip Rev Syst Biol Med (2010) 0.91
Calcium influx through L-type CaV1.2 Ca2+ channels regulates mandibular development. J Clin Invest (2013) 0.88
Improved preparation of chick embryonic samples for magnetic resonance microscopy. Magn Reson Med (2003) 0.88
Cardiac neural crest ablation inhibits compaction and electrical function of conduction system bundles. Am J Physiol Heart Circ Physiol (2006) 0.87
Coordinated and conserved expression of alphoid repeat and alphoid repeat-tagged coding sequences. Dev Dyn (2003) 0.85
Embryogenesis of transposition of the great arteries: a lesson from the heart. Circ Res (2002) 0.83
Take heart in the age of "omics". Circ Res (2004) 0.81
Calcium dependent CAMTA1 in adult stem cell commitment to a myocardial lineage. PLoS One (2012) 0.80
[Studies on morphogenesis and visualization of the early embryonic heart with regard to the development of conotruncal heart defects]. Z Kardiol (2004) 0.79
Images in cardiovascular medicine. Time-lapse study with high speed video camera in the early embryonic chick heart to visualize a time window of normal and abnormal heart development. Circulation (2002) 0.77
Neurotrophin-3 and TrkC are expressed in the outflow tract of the developing chicken heart. Dev Dyn (2004) 0.77
Images in cardiovascular medicine. Approaching cardiac development in three dimensions by magnetic resonance microscopy. Circulation (2003) 0.76
Blocking hedgehog signaling after ablation of the dorsal neural tube allows regeneration of the cardiac neural crest and rescue of outflow tract septation. Dev Biol (2009) 0.76
Why don't they beat?: Cripto, apelin/APJ, and myocardial differentiation. Circ Res (2009) 0.75
Mouse models of congenital heart defects: what's missing? Circ Cardiovasc Imaging (2010) 0.75